CN219183847U - Toilet bowl system - Google Patents

Abstract

The disclosure provides a toilet system, which relates to the technical field of intelligent bathroom. The system comprises a closestool, a remote controller, a urine detection assembly and a second wireless module, wherein the closestool is provided with a urinal; the remote controller comprises a fingerprint module and a first wireless module, and the fingerprint module is electrically connected with the first wireless module; the urine detection assembly is arranged on the closestool and comprises a urine detection control module; the second wireless module is used for transmitting signals with the first wireless module and the urine detection control module; the fingerprint module is used for acquiring user information, and the first wireless module is used for sending the user information and a starting instruction to the second wireless module; the second wireless module is used for sending user information and a starting instruction to the urine test control module, and the urine test control module can control the urine test assembly to start working according to the starting instruction.

Description

Toilet bowl system

Technical Field

The disclosure relates to the technical field of intelligent bathrooms, in particular to a toilet system.

Background

Urine examination is one of three general clinical examinations, the components of the urine examination cover a plurality of information of various indexes in a body, thereby obtaining the disease source, knowing whether the metabolic process of the human body is normal, providing objective data for diagnosis and treatment monitoring of pathological changes such as renal function, urinary system, liver diseases, metabolic diseases such as diabetes and the like and organ functional states, and having very important clinical significance and value.

Queuing is needed when the patient goes to the hospital for urine examination, a doctor is needed to make a detection receipt after the registration is successful, the user receives urine manually and sends the urine cup to a detection window of the hospital, the patient can know the urine examination result after the detection of medical staff is completed, and the process is complex and inconvenient and is particularly obvious for the old. In order to facilitate the user to carry out urine detection by himself, an intelligent closestool with urine detection is generated.

In the related art, the urine detection application of the intelligent closestool is very common, the technical theory is mature, and the intelligent closestool has the advantages of quick detection and accurate result. Most fingerprint identification buttons and urine check function buttons are all arranged on the intelligent closestool, the two buttons are mutually independent, a user presses the fingerprint identification buttons to identify, and the urine check function buttons are also required to be pressed manually to start urine check work, so that the operation is complicated.

It should be noted that the information disclosed in the above background section is only for enhancing understanding of the background of the present disclosure and thus may include information that does not constitute prior art known to those of ordinary skill in the art.

Disclosure of Invention

The present disclosure aims to provide a toilet system, which at least to some extent overcomes the problem of cumbersome operation due to the start of the urine test function in the related art.

Other features and advantages of the present disclosure will be apparent from the following detailed description, or may be learned in part by the practice of the disclosure.

According to one aspect of the present disclosure, there is provided a toilet system comprising: the remote control device comprises a closestool, a remote controller and a urine detection assembly, wherein the closestool is used for collecting urine to be detected; the remote controller comprises a fingerprint module and a first wireless module, and the fingerprint module is electrically connected with the first wireless module; the urine detection assembly is arranged on the closestool and comprises a second wireless module and a urine detection control module, and the urine detection control module is electrically connected with the second wireless module; the fingerprint module is used for acquiring user information, and the first wireless module is used for sending the user information and a starting instruction to the second wireless module; the second wireless module is used for sending user information and a starting instruction to the urine test control module, and the urine test control module can control the urine test assembly to start working according to the starting instruction.

In one embodiment of the disclosure, the urine test assembly further comprises a motion module, a detection module and a detection piece in transmission fit with the motion module, wherein the detection module is used for detecting the detection piece; the urine detection control module is respectively and electrically connected with the motion module and the detection module so as to control the motion module and the detection module to start working.

In one embodiment of the disclosure, the urine test assembly further comprises a storage module electrically connected to the urine test control module, the storage module for storing urine test information.

In one embodiment of the disclosure, the toilet system further includes a cloud end, the urine test control module is connected with the cloud end, and the cloud end is used for storing urine test information.

In one embodiment of the disclosure, the remote controller further includes a sleep control circuit, where the sleep control circuit is electrically connected to the fingerprint module, and the sleep control circuit is used to control sleep or operation of the fingerprint module.

In one embodiment of the disclosure, the sleep control circuit includes a triode, the triode is electrically connected with the fingerprint module and the first wireless module respectively, the first wireless module outputs a high-low level signal to a base electrode of the triode, and the high-low level signal is used for controlling the conduction or the cut-off of the triode; when the triode is conducted, starting the fingerprint module to work; and when the triode is cut off, starting the fingerprint module to sleep.

In one embodiment of the disclosure, the remote controller further comprises a housing and a protective cover, the fingerprint module comprises a fingerprint acquisition sensor arranged on the housing, and the protective cover is arranged on the fingerprint acquisition sensor.

In one embodiment of the disclosure, the first wireless module adopts a bluetooth module or a radio frequency module, and the second wireless module adopts a bluetooth module or a radio frequency module.

In one embodiment of the disclosure, a toilet control module is arranged on the toilet, the toilet control module is connected with the urine test control module, and the urine test control module can control the urine test assembly to start working according to a working signal of the toilet control module and the starting instruction.

In one embodiment of the disclosure, the second wireless module is electrically connected to the urine test control module, or alternatively, the second wireless module is electrically connected to the toilet control module.

Embodiments of the present disclosure provide a toilet system that includes a toilet, a remote control, a urine detection assembly, and a second wireless module. Be provided with fingerprint module and first wireless module on the remote controller, fingerprint module is after discernment user's identity passes through, and first wireless module can send user information and start command to second wireless module to start the urine examination work of urine examination subassembly, can realize like this that fingerprint module one key starts urine examination function, need not to set up the urine examination function button again, and the operation is more convenient simple.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the disclosure and together with the description, serve to explain the principles of the disclosure. It will be apparent to those of ordinary skill in the art that the drawings in the following description are merely examples of the disclosure and that other drawings may be derived from them without undue effort.

Fig. 1 illustrates a schematic structural view of a toilet system in an embodiment of the present disclosure.

Fig. 2 shows a schematic diagram of a toilet system in an embodiment of the present disclosure.

Fig. 3 shows a circuit diagram of a toilet system in an embodiment of the present disclosure.

Fig. 4 shows a schematic structural view of another toilet system in an embodiment of the present disclosure.

Fig. 5 shows a schematic view of another toilet system in an embodiment of the present disclosure.

Fig. 6 illustrates a circuit diagram of another toilet system in an embodiment of the present disclosure.

Wherein reference numerals are as follows:

100. a remote controller; 110. a fingerprint module; 111. a fingerprint acquisition sensor; 112. a protective cover; 120. a first wireless module;

200. a toilet bowl; 210. a toilet control module;

300. a urine detection assembly; 310. a urine detection control module; 320. a motion module; 330. a detection module; 340. a storage module; 350. a third wireless module;

400. a second wireless module;

500. a router;

600. and (5) cloud end.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. However, the exemplary embodiments may be embodied in many forms and should not be construed as limited to the examples set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the example embodiments to those skilled in the art. The described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

Furthermore, the drawings are merely schematic illustrations of the present disclosure and are not necessarily drawn to scale. The same reference numerals in the drawings denote the same or similar parts, and thus a repetitive description thereof will be omitted. Some of the block diagrams shown in the figures are functional entities and do not necessarily correspond to physically or logically separate entities. These functional entities may be implemented in software or in one or more hardware modules or integrated circuits or in different networks and/or processor devices and/or microcontroller devices.

Referring to fig. 1 and 2, a toilet system that can embody principles of the present disclosure is representatively illustrated in fig. 1 and 2 as applicable to urine detection, including remote control 100, toilet 200, and urine detection assembly 300. The urinal of the toilet bowl 200 is used for collecting urine to be detected, the remote controller 100 is wirelessly connected with the urine detection assembly 300, and the urine detection assembly 300 is arranged on the toilet bowl 200. The remote controller 100 is provided with the fingerprint module 110 and the first wireless module 120, the fingerprint module 110 is used for obtaining user information, after the identity of the user is identified by the fingerprint module 110, the first wireless module 120 can send a user signal and a starting instruction to the second wireless module 400 so as to start the urine test work of the urine test assembly 300, so that the urine test function can be started by one key of the fingerprint module 110, a button of the urine test function is not required to be set, and the operation is more convenient and simple.

The toilet system of fig. 1 and 2, respectively, is described in detail below.

In an embodiment, the remote controller 100 includes a housing, a protective cover 112, a first wireless module 120 and a fingerprint module 110, the first wireless module 120 and the fingerprint module 110 are disposed in the housing, the first wireless module 120 and the fingerprint module 110 are electrically connected, and the protective cover 112 is disposed on the surface of the housing.

The fingerprint module 110 includes a fingerprint sensor 111 disposed on the housing, and a protective cover 112 is disposed over the fingerprint sensor 111. The fingerprint collection sensor 111 can be used for collecting fingerprint information for fingerprint module 110 discerns user's identity, and visor 112 is used for protecting fingerprint collection sensor 111, and visor 112 can overturn with one of them as the axle, covers or exposes fingerprint collection sensor 111. The fingerprint acquisition sensor 111 includes an optical fingerprint sensor and a semiconductor fingerprint sensor.

The first wireless module 120 sends the user information and the electrical signal of the start command to the urine test assembly 300, respectively, and the urine test assembly 300 can process and start the urine test work after receiving the user information and the electrical signal of the start command. The user information may include fingerprint information of the user, and the start instruction is used to control the urine detection component 300 to start working.

In this embodiment, the start instruction is generated in the bluetooth module. The bluetooth module may include a bluetooth processor, and when the bluetooth processor receives the user information electrical signal sent by the fingerprint module 110, the bluetooth processor generates a start command, and sends the user information and the start command in the form of electrical signals to the urine test component 300 for processing through the first wireless module 120.

But are not limited to, in other embodiments: the start instruction may also be generated directly in the fingerprint module 110. The fingerprint module 110 may include a fingerprint processor that processes the collected fingerprint information and generates user information and a start instruction. The fingerprint module 110 sends the user information and the start command to the first wireless module 120, and the user information and the start command are sent to the urine detection component 300 for processing through the first wireless module 120.

The start command may also be generated by an MCU (Microcontroller Unit, micro control unit) disposed between the fingerprint module 110 and the bluetooth module, where the connection relationship is: the MCU is electrically connected with the Bluetooth module and the fingerprint module 110, respectively. The MCU sends a start command to the first wireless module 120, and the first wireless module 120 sends a start command to the urine test assembly 300 for processing.

The bluetooth processor and the fingerprint processor may be, for example, an integrated circuit chip having a signal processing capability, for example, a Central Processing Unit (CPU), a Network Processor (NP), or the like, or may be a signal processor (DSP), an Application Specific Integrated Circuit (ASIC), or the like.

The first wireless module 120 may be a bluetooth module or a radio frequency module, where the bluetooth module transmits through digital signals, and the radio frequency module transmits through mixed digital-to-analog signals. The Bluetooth module is a PCBA board integrating the Bluetooth function and is used for short-distance wireless communication and is divided into a Bluetooth data module and a Bluetooth voice module according to the function. The bluetooth module refers to a chip basic circuit set integrating bluetooth functions, and is used for wireless network communication, and can be roughly divided into three types: the system comprises a data transmission module, a Bluetooth audio and data two-in-one module and the like. The radio frequency module is also called an RFID module and is a middleware for reading and writing the RFID of the radio frequency card. RFID (Radio Frequency Identification ) is a wireless system that uses wireless radio frequency to perform contactless bi-directional data transmission between a reader and a radio frequency card for target identification and data exchange purposes.

In one embodiment, the toilet 200 may be a smart toilet, and the toilet 200 may have functions of automatic flushing, automatic hip washing, automatic gynecological washing, automatic lifting of a seat cushion, and the like. The toilet 200 includes a toilet control module 210, and the toilet control module 210 is connected with the urine test control module through a serial port for data transmission.

In one embodiment, the urine test assembly 300 is disposed at the bottom of the toilet bowl 200 and is capable of performing urine test operations within the toilet bowl 200. The urine test assembly 300 includes a urine test control module 310, a second wireless module 400, a motion module 320, a detection module 330, and a storage module 340. The urine detection control module 310 is electrically connected to the second wireless module 400, the third wireless module 350, the movement module 320, the detection module 330, and the storage module 340, respectively. The detection module 330 is used for detecting the detection piece and obtaining a urine detection result; the urine detection control module 310 is electrically connected with the movement module 320 and the detection module 330 respectively to control the movement module 320 and the detection module 330 to start working; the storage module 340 is configured to store urine test information, where the urine test information includes a urine test result, user information corresponding to the urine test result, and the like.

The second wireless module 400 may be a bluetooth module or a radio frequency module. If the first wireless module 120 is a bluetooth module, the second wireless module 400 is a bluetooth module; if the first wireless module 120 is a radio frequency module, the second wireless module 400 is a radio frequency module.

Such a connection can be achieved: the first wireless module 120 is configured to send a start instruction to the second wireless module 400; the second wireless module 400 sends a start command to the urine test control module 310, and the urine test control module 310 is configured to control the urine test assembly 300 to start working according to the start command.

The urine test control module 310 can obtain a working signal of the running state of the whole machine from the toilet control module 210, for example, whether the whole machine is in a state of flushing, buttocks washing, gynecological washing, lifting cushion, and the like, so as to determine whether to perform urine test. If the whole machine does not perform operations such as flushing, buttocks washing, gynecological washing, lifting the seat cushion and the like, the urine test assembly 300 performs urine test work.

Meanwhile, the urine test control module 310 can control the movement module 320 to drive the stepper motor to move according to the starting instruction, and the stepper motor can drive a detection piece in driving fit with the movement module 320, wherein the movement module 320 can be a stepper motor driving module, and the detection piece can be test paper. The stepper motor drives the test paper to move forwards and stretch out of the test paper cabin to spray urine, and after the urine spraying is completed, the stepper motor drives the test paper to move backwards again, so that different color blocks are aligned to the detection module 330, wherein the detection module 330 can be a color sensor. The gray value of the color patch is detected by a color sensor, and the urine detection result is obtained after processing, and the color sensor sends the urine detection result to the urine detection control module 310. The urine test control module 310 can find the corresponding user information in the storage module 340 and store the urine test results under the user name.

In an embodiment, the urine test assembly 300 further includes a third wireless module 350, and the toilet system further includes a router 500 and a cloud 600, wherein the cloud 600 can be used for storing urine test information, and the urine test information includes a urine test result, user information corresponding to the urine test result, and the like. The third wireless module 350 may be a WiFi module, where the WiFi module is wirelessly connected to the router 500, and the router 500 is wirelessly connected to the cloud 600. The urine test control module 310 can send the urine test result, the user information, and the like to the cloud 600 for storage through the connection between the third wireless module 350 and the router 500. Cloud 600 may include WEB servers, communication servers, smart phone ends, PC ends, and the like.

Referring to fig. 3, fig. 3 illustrates a circuit diagram of a toilet system in an embodiment of the present disclosure.

In the circuit board of the remote controller 100, a first wireless module 120, a fingerprint module 110, and a sleep control circuit may be included, where the sleep control circuit is electrically connected to the fingerprint module 110, and the sleep control circuit is used to control sleep or operation of the fingerprint module 110.

In an embodiment, the sleep control circuit includes a triode and a power supply, the triode is respectively electrically connected with the fingerprint module 110 and the first wireless module 120, the first wireless module 120 outputs a high-low level signal to the base electrode of the triode, and the high-low level signal is used for controlling the on or off of the triode; when the triode is conducted, the fingerprint module 110 is started to work; when the transistor is turned off, the fingerprint module 110 is enabled to sleep.

The collector of the triode is electrically connected with the positive electrode of the power supply, the base of the triode is electrically connected with the P0 pin of the first wireless module 120, and the emitter of the triode is connected with the VCC pin of the fingerprint module 110. An R1 resistor is connected between the base electrode and the emitter electrode of the triode to protect the triode. The first wireless module 120 controls the on and off of the triode Q1 by controlling the high and low level of the IO port, so as to control whether the fingerprint module 110 is powered or not, thereby realizing the dormancy and the operation of the fingerprint module 110.

The V_touch pin of the fingerprint module 110 is connected with the positive electrode of the 3.3V power supply, the touch_out pin of the fingerprint module 110 is connected with the pin of the first wireless module 120P1, and when the finger touch is performed on the touch_out pin of the fingerprint module 110, a high level is output, and when the finger touch is not performed, a low level is output. The first wireless module 120 determines whether there is a finger touch by detecting high and low level changes of the P1 pin. When a finger touches the fingerprint sensor 111, the pin of the first wireless module 120P1 detects that the touch_out pin of the fingerprint module 110 outputs a high level, so that the first wireless module 120 outputs a high level at the pin P0, and the triode Q1 is turned on, so as to start the fingerprint module 110 to identify. When no finger touches the fingerprint sensor 111, the first wireless module 120 outputs a low level at pin P0, and the transistor Q1 is turned off, so that the fingerprint module 110 enters sleep and is in a low power consumption state.

In the circuit board of the urine test assembly 300, a urine test control module 310, a motion module 320, a detection module 330, a storage module 340, and a second wireless module 400 may be included. Wherein the first wireless module 120 is wirelessly connected with the second wireless module 400.

The P00 pin, the P01 pin, the P02 pin, and the P03 pin of the urine test control module 310 are electrically connected to the in_1 pin, the in_2 pin, the in_3 pin, and the in_4 pin of the motion module 320, respectively, the motion module 320 may be a stepper motor driving module, and the out_1 pin, the out_2 pin, the out_3 pin, and the out_4 pin of the motion module 320 may be selected to be electrically connected to the VCC pin and the GND pin of the stepper motor. The control logic of the stepper motor is IN the prior art, for example, in_1 inputs low level, in_2 inputs low level or in_1 inputs high level, in_2 inputs high level, and the motor stops rotating at this time; in_1 inputs high level, in_2 inputs low level, and the motor rotates clockwise at this time; in_2 is input with high level, in_1 is input with low level, and the motor rotates anticlockwise at this time, which will not be described here again.

The tx_0 pin and the rx_0 pin of the urine test control module 310 are electrically connected to the RX pin and the TX pin of the second wireless module 400, respectively. When the second wireless module 400 obtains the user information and the start command from the first wireless module 120, the second wireless module 400 sends the user information and the start command to the urine test control module 310, and the urine test control module 310 performs the urine test work according to the user information and the start command.

The tx_3 pin and the rx_3 pin of the urine test control module 310 are electrically connected to the RX pin and the TX pin of the test module 330, respectively, and when the test module 330 completes the test, the urine test result can be sent to the control module.

The tx_1 pin and the rx_1 pin of the urine test control module 310 are electrically connected to the RX pin and the TX pin of the storage module 340, respectively, and when the urine test control module 310 receives the urine test result, the urine test result can be sent to the storage module 340 for storage. Meanwhile, the urine test control module 310 can also query the user information in the storage module 340, and store the urine test result each time under the name of the corresponding user information.

In the circuit board of the toilet bowl 200, a toilet bowl control module 210 may be included, where an RX pin and a TX pin of the toilet bowl control module 210 are electrically connected with a tx_2 pin and an rx_2 pin of the urine test control module 310, and the toilet bowl control module 210 can send a working signal of an operation state of the whole machine to the urine test control module 310, and the urine test control module 310 determines whether the whole machine is in a state of flushing, buttocks washing, gynecological washing, lifting cushion, and the like according to the working signal, so as to determine whether to perform urine test work.

Referring to fig. 4 and 5, another toilet system capable of embodying principles of the present disclosure is representatively illustrated in fig. 4 and 5 and may be employed for urine detection, including remote control 100, toilet 200 and urine detection assembly 300. The urinal of the toilet bowl 200 is used for collecting urine to be detected, the remote controller 100 is wirelessly connected with the urine detection assembly 300, and the urine detection assembly 300 is arranged on the toilet bowl 200. The remote controller 100 is provided with the fingerprint module 110 and the first wireless module 120, the fingerprint module 110 is used for obtaining user information, after the identity of the user is identified by the fingerprint module 110, the first wireless module 120 can send a user signal and a starting instruction to the second wireless module 400 so as to start the urine test work of the urine test assembly 300, so that the urine test function can be started by one key of the fingerprint module 110, a button of the urine test function is not required to be set, and the operation is more convenient and simple.

In one embodiment, the toilet 200 includes a toilet control module 210 and a second wireless module 400. The toilet control module 210 is electrically connected with the second wireless module 400 for signal transmission; the toilet control module 210 is connected to the urine test control module 310 via a serial port for data transmission.

The urine test unit 300 is provided at the bottom of the toilet bowl 200, and can perform a urine test operation in the toilet bowl 200. The urine test assembly 300 includes a urine test control module 310, a motion module 320, a detection module 330, and a storage module 340. The urine detection control module 310 is electrically connected to the third wireless module 350, the movement module 320, the detection module 330, and the storage module 340, respectively. The detection module 330 is used for detecting the detection piece and obtaining a urine detection result; the urine detection control module 310 is electrically connected with the movement module 320 and the detection module 330 respectively to control the movement module 320 and the detection module 330 to start working; the storage module 340 is configured to store urine test information, where the urine test information includes a urine test result, user information corresponding to the urine test result, and the like.

The second wireless module 400 may be a bluetooth module or a radio frequency module. If the first wireless module 120 is a bluetooth module, the second wireless module 400 is a bluetooth module; if the first wireless module 120 is a radio frequency module, the second wireless module 400 is a radio frequency module.

Such a connection can be achieved: the first wireless module 120 is configured to send a start instruction to the second wireless module 400; the second wireless module 400 sends a start command to the toilet control module 210, the toilet control module 210 sends a start command to the urine test control module 310, and the urine test control module 310 controls the urine test assembly 300 to start working according to the start command.

The urine test control module 310 can obtain a working signal of the running state of the whole machine from the toilet control module 210, for example, whether the whole machine is in a state of flushing, buttocks washing, gynecological washing, lifting cushion, and the like, so as to determine whether to perform urine test. If the whole machine does not perform operations such as flushing, buttocks washing, gynecological washing, lifting the seat cushion and the like, the urine test assembly 300 performs urine test work.

Meanwhile, the urine test control module 310 can control the movement module 320 to drive the stepper motor to move according to the starting instruction, and the stepper motor can drive a detection piece in driving fit with the movement module 320, wherein the movement module 320 can be a stepper motor driving module, and the detection piece can be test paper. The stepper motor drives the test paper to move forwards and stretch out of the test paper cabin to spray urine, and after the urine spraying is completed, the stepper motor drives the test paper to move backwards again, so that different color blocks are aligned to the detection module 330, wherein the detection module 330 can be a color sensor. The gray value of the color patch is detected by a color sensor, and the urine detection result is obtained after processing, and the color sensor sends the urine detection result to the urine detection control module 310. The urine test control module 310 can find the corresponding user information in the storage module 340 and store the urine test results under the user name.

Referring to fig. 6, fig. 6 shows a circuit diagram of a toilet system in an embodiment of the present disclosure.

In the circuit board of the remote controller 100, a first wireless module 120, a fingerprint module 110, and a sleep control circuit may be included, where the sleep control circuit is electrically connected to the fingerprint module 110, and the sleep control circuit is used to control sleep or operation of the fingerprint module 110.

In an embodiment, the sleep control circuit includes a triode and a power supply, the triode is respectively electrically connected with the fingerprint module 110 and the first wireless module 120, the first wireless module 120 outputs a high-low level signal to the base electrode of the triode, and the high-low level signal is used for controlling the on or off of the triode; when the triode is conducted, the fingerprint module 110 is started to work; when the transistor is turned off, the fingerprint module 110 is enabled to sleep.

In the circuit board of the toilet bowl 200, a toilet bowl control module 210 and a second wireless module 400 may be included, where the rx_1 pin and the tx_1 pin of the toilet bowl control module 210 are electrically connected with the tx_2 pin and the rx_2 pin of the urine test control module 310, the toilet bowl control module 210 can send a working signal of the running state of the whole machine to the urine test control module 310, and the urine test control module 310 determines whether the whole machine is in the states of flushing, hip washing, gynecological washing, lifting cushion, and the like according to the working signal, so as to determine whether to perform the urine test work.

The rx_0 pin and the tx_0 pin of the toilet control module 210 are electrically connected to the TX pin and the RX pin of the second wireless module 400, respectively. When the second wireless module 400 acquires the user information and the start command from the first wireless module 120, the second wireless module 400 transmits the user information and the start command to the toilet control module 210, and the toilet control module 210 transmits the user information and the start command to the urine test control module 310, and the urine test control module 310 performs the urine test work according to the user information and the start command.

In the circuit board of the urine test assembly 300, a urine test control module 310, a motion module 320, a detection module 330, and a storage module 340 may be included.

The P00 pin, the P01 pin, the P02 pin, and the P03 pin of the urine test control module 310 are electrically connected to the in_1 pin, the in_2 pin, the in_3 pin, and the in_4 pin of the motion module 320, respectively, the motion module 320 may be a stepper motor driving module, and the out_1 pin, the out_2 pin, the out_3 pin, and the out_4 pin of the motion module 320 may be selected to be electrically connected to the VCC pin and the GND pin of the stepper motor.

The tx_3 pin and the rx_3 pin of the urine test control module 310 are electrically connected to the RX pin and the TX pin of the test module 330, respectively, and when the test module 330 completes the test, the urine test result can be sent to the control module.

The TX pin and the RX pin of the urine test control module 310 are electrically connected to the RX pin and the TX pin of the storage module 340, respectively, and when the urine test control module 310 receives the urine test result, the urine test result can be sent to the storage module 340 for storage. Meanwhile, the urine test control module 310 can query the user information in the storage module 340, and store the result of each urine test under the name of the corresponding user information.

It should be appreciated that the various examples described above may be utilized in a variety of directions (e.g., tilted, inverted, horizontal, vertical, etc.) and in a variety of configurations without departing from the principles of the present disclosure. The embodiments shown in the drawings are shown and described merely as examples of useful applications of the principles of the disclosure, which are not limited to any specific details of these embodiments.

Of course, once the above description of representative embodiments has been carefully considered, those skilled in the art will readily appreciate that numerous modifications, additions, substitutions, deletions, and other changes may be made to these specific embodiments, and such changes are within the scope of the principles of the present disclosure. Accordingly, the foregoing detailed description is to be clearly understood as being given by way of illustration and example only, the spirit and scope of the present disclosure being limited solely by the appended claims and equivalents thereto.

Claims (10)

1. A toilet system, comprising:

a toilet having a bowl;

the remote controller comprises a fingerprint module and a first wireless module, and the fingerprint module is electrically connected with the first wireless module;

the urine detection assembly is arranged on the closestool and comprises a urine detection control module;

the second wireless module is used for transmitting signals with the first wireless module and the urine detection control module;

the fingerprint module is used for acquiring user information, and the first wireless module is used for sending the user information and a starting instruction to the second wireless module; the second wireless module is used for sending user information and a starting instruction to the urine test control module, and the urine test control module can control the urine test assembly to start working according to the starting instruction.

2. The toilet system according to claim 1, wherein the urine detection assembly further comprises a motion module, a detection module, and a detection member in driving engagement with the motion module, the detection module configured to detect the detection member; the urine detection control module is respectively and electrically connected with the motion module and the detection module so as to control the motion module and the detection module to start working.

3. The toilet system according to claim 2, wherein the urine test assembly further comprises a memory module electrically connected to the urine test control module, the memory module for storing urine test information.

4. The toilet system according to claim 2, further comprising a cloud end, wherein the urine test control module is connected to the cloud end, and wherein the cloud end is configured to store urine test information.

5. The toilet system according to claim 1, wherein the remote control further comprises a sleep control circuit electrically connected to the fingerprint module, the sleep control circuit for controlling sleep or operation of the fingerprint module.

6. The toilet system according to claim 5, wherein the sleep control circuit comprises a transistor electrically connected to the fingerprint module and the first wireless module, respectively, the first wireless module outputting a high-low level signal to a base of the transistor, the high-low level signal being used to control on or off of the transistor; when the triode is conducted, starting the fingerprint module to work; and when the triode is cut off, starting the fingerprint module to sleep.

7. The toilet system according to claim 1, wherein the remote control further comprises a housing and a protective cover, the fingerprint module comprising a fingerprint sensor disposed on the housing, the protective cover covering the fingerprint sensor.

8. The toilet system according to claim 1, wherein the first wireless module is a bluetooth module or a radio frequency module and the second wireless module is a bluetooth module or a radio frequency module.

9. The toilet system according to claim 1, wherein a toilet control module is provided on the toilet, the toilet control module is connected with the urine test control module, and the urine test control module can control the urine test assembly to start working according to a working signal of the toilet control module and the starting instruction.

10. The toilet system according to claim 9, wherein the second wireless module is electrically connected to the urine test control module or the second wireless module is electrically connected to the toilet control module.

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